Selective suppression of melanoma lacking IFN-γ pathway by JAK inhibition depends on T cells and host TNF signaling

Hongxing Shen; Fengyuan Huang; Xiangmin Zhang; Oluwagbemiga A. Ojo; Yuebin Li; Hoa Quang Trummell; Joshua C. Anderson; John Fiveash; Markus Bredel; Eddy S. Yang; Christopher D. Willey; Zechen Chong; James A. Bonner; Lewis Zhichang Shi

doi:10.1038/s41467-022-32754-7

Selective suppression of melanoma lacking IFN-γ pathway by JAK inhibition depends on T cells and host TNF signaling

Hongxing Shen, Fengyuan Huang, Xiangmin Zhang, Oluwagbemiga A. Ojo, Yuebin Li, Hoa Quang Trummell, Joshua C. Anderson, John Fiveash, Markus Bredel, Eddy S. Yang, Christopher D. Willey, Zechen Chong, James A. Bonner, Lewis Zhichang Shi

Producción científica: Article › revisión exhaustiva

21 Citas (Scopus)

Resumen

Therapeutic resistance to immune checkpoint blockers (ICBs) in melanoma patients is a pressing issue, of which tumor loss of IFN-γ signaling genes is a major underlying mechanism. However, strategies of overcoming this resistance mechanism have been largely elusive. Moreover, given the indispensable role of tumor-infiltrating T cells (TILs) in ICBs, little is known about how tumor-intrinsic loss of IFN-γ signaling (IFNγR1^KO) impacts TILs. Here, we report that IFNγR1^KO melanomas have reduced infiltration and function of TILs. IFNγR1^KO melanomas harbor a network of constitutively active protein tyrosine kinases centered on activated JAK1/2. Mechanistically, JAK1/2 activation is mediated by augmented mTOR. Importantly, JAK1/2 inhibition with Ruxolitinib selectively suppresses the growth of IFNγR1^KO but not scrambled control melanomas, depending on T cells and host TNF. Together, our results reveal an important role of tumor-intrinsic IFN-γ signaling in shaping TILs and manifest a targeted therapy to bypass ICB resistance of melanomas defective of IFN-γ signaling.

Idioma original	English
Número de artículo	5013
Publicación	Nature Communications
Volumen	13
N.º	1
DOI	https://doi.org/10.1038/s41467-022-32754-7
Estado	Published - dic 2022

Nota bibliográfica

Publisher Copyright:
© 2022, The Author(s).

Financiación

We would like to acknowledge other members of Shi lab and the Department of Radiation Oncology at UAB for their constructive input. We are grateful for the Startup fund from the Department of Radiation Oncology and the O’Neal Invests pre-R01 Grant from the UAB-O’Neal Comprehensive Cancer Center granted to Shi lab. This study is also funded by National Institutes of Health grants (1R21CA230475-01A1 and 1R21CA259721-01A1), the V Foundation Scholar Award (V2018-023), a DoD-Congressionally Directed Medical Research Programs grant (ME210108), a Cancer Research Institute CLIP Grant (CRI4342), an American Cancer Society Institutional Research Grant (91-022-19), and National Institute of General Medical Sciences (1R35GM138212). We would like to acknowledge other members of Shi lab and the Department of Radiation Oncology at UAB for their constructive input. We are grateful for the Startup fund from the Department of Radiation Oncology and the O’Neal Invests pre-R01 Grant from the UAB-O’Neal Comprehensive Cancer Center granted to Shi lab. This study is also funded by National Institutes of Health grants (1R21CA230475-01A1 and 1R21CA259721-01A1), the V Foundation Scholar Award (V2018-023), a DoD-Congressionally Directed Medical Research Programs grant (ME210108), a Cancer Research Institute CLIP Grant (CRI4342), an American Cancer Society Institutional Research Grant (91-022-19), and National Institute of General Medical Sciences (1R35GM138212).

Financiadores	Número del financiador
Department of Radiation Oncology
UAB-O’Neal Comprehensive Cancer Center
National Institutes of Health (NIH)	1R21CA230475-01A1
National Institutes of Health (NIH)
American Cancer Society-Michigan Cancer Research Fund	91-022-19
American Cancer Society-Michigan Cancer Research Fund
National Childhood Cancer Registry – National Cancer Institute	R21CA259721
National Childhood Cancer Registry – National Cancer Institute
National Institute of General Medical Sciences DP2GM119177 Sophie Dumont National Institute of General Medical Sciences	1R35GM138212
National Institute of General Medical Sciences DP2GM119177 Sophie Dumont National Institute of General Medical Sciences
Congressionally Directed Medical Research Programs	ME210108
Congressionally Directed Medical Research Programs
Children's Cancer Research Institute, Vienna	CRI4342
Children's Cancer Research Institute, Vienna
V Foundation for Cancer Research	V2018-023
V Foundation for Cancer Research
University of Alabama, Birmingham

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General
General Physics and Astronomy

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10.1038/s41467-022-32754-7

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Shen, H., Huang, F., Zhang, X., Ojo, O. A., Li, Y., Trummell, H. Q., Anderson, J. C., Fiveash, J., Bredel, M., Yang, E. S., Willey, C. D., Chong, Z., Bonner, J. A., & Shi, L. Z. (2022). Selective suppression of melanoma lacking IFN-γ pathway by JAK inhibition depends on T cells and host TNF signaling. Nature Communications, 13(1), Artículo 5013. https://doi.org/10.1038/s41467-022-32754-7

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abstract = "Therapeutic resistance to immune checkpoint blockers (ICBs) in melanoma patients is a pressing issue, of which tumor loss of IFN-γ signaling genes is a major underlying mechanism. However, strategies of overcoming this resistance mechanism have been largely elusive. Moreover, given the indispensable role of tumor-infiltrating T cells (TILs) in ICBs, little is known about how tumor-intrinsic loss of IFN-γ signaling (IFNγR1KO) impacts TILs. Here, we report that IFNγR1KO melanomas have reduced infiltration and function of TILs. IFNγR1KO melanomas harbor a network of constitutively active protein tyrosine kinases centered on activated JAK1/2. Mechanistically, JAK1/2 activation is mediated by augmented mTOR. Importantly, JAK1/2 inhibition with Ruxolitinib selectively suppresses the growth of IFNγR1KO but not scrambled control melanomas, depending on T cells and host TNF. Together, our results reveal an important role of tumor-intrinsic IFN-γ signaling in shaping TILs and manifest a targeted therapy to bypass ICB resistance of melanomas defective of IFN-γ signaling.",

author = "Hongxing Shen and Fengyuan Huang and Xiangmin Zhang and Ojo, \{Oluwagbemiga A.\} and Yuebin Li and Trummell, \{Hoa Quang\} and Anderson, \{Joshua C.\} and John Fiveash and Markus Bredel and Yang, \{Eddy S.\} and Willey, \{Christopher D.\} and Zechen Chong and Bonner, \{James A.\} and Shi, \{Lewis Zhichang\}",

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AU - Bonner, James A.

AU - Shi, Lewis Zhichang

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N2 - Therapeutic resistance to immune checkpoint blockers (ICBs) in melanoma patients is a pressing issue, of which tumor loss of IFN-γ signaling genes is a major underlying mechanism. However, strategies of overcoming this resistance mechanism have been largely elusive. Moreover, given the indispensable role of tumor-infiltrating T cells (TILs) in ICBs, little is known about how tumor-intrinsic loss of IFN-γ signaling (IFNγR1KO) impacts TILs. Here, we report that IFNγR1KO melanomas have reduced infiltration and function of TILs. IFNγR1KO melanomas harbor a network of constitutively active protein tyrosine kinases centered on activated JAK1/2. Mechanistically, JAK1/2 activation is mediated by augmented mTOR. Importantly, JAK1/2 inhibition with Ruxolitinib selectively suppresses the growth of IFNγR1KO but not scrambled control melanomas, depending on T cells and host TNF. Together, our results reveal an important role of tumor-intrinsic IFN-γ signaling in shaping TILs and manifest a targeted therapy to bypass ICB resistance of melanomas defective of IFN-γ signaling.

AB - Therapeutic resistance to immune checkpoint blockers (ICBs) in melanoma patients is a pressing issue, of which tumor loss of IFN-γ signaling genes is a major underlying mechanism. However, strategies of overcoming this resistance mechanism have been largely elusive. Moreover, given the indispensable role of tumor-infiltrating T cells (TILs) in ICBs, little is known about how tumor-intrinsic loss of IFN-γ signaling (IFNγR1KO) impacts TILs. Here, we report that IFNγR1KO melanomas have reduced infiltration and function of TILs. IFNγR1KO melanomas harbor a network of constitutively active protein tyrosine kinases centered on activated JAK1/2. Mechanistically, JAK1/2 activation is mediated by augmented mTOR. Importantly, JAK1/2 inhibition with Ruxolitinib selectively suppresses the growth of IFNγR1KO but not scrambled control melanomas, depending on T cells and host TNF. Together, our results reveal an important role of tumor-intrinsic IFN-γ signaling in shaping TILs and manifest a targeted therapy to bypass ICB resistance of melanomas defective of IFN-γ signaling.

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Selective suppression of melanoma lacking IFN-γ pathway by JAK inhibition depends on T cells and host TNF signaling

Resumen

Nota bibliográfica

Financiación

ASJC Scopus subject areas

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